1 |
Simulating, fabricating and characterising photoconductive microwave switches for RF applicationsKowalczuk, Emma K. January 2014 (has links)
Photoconductive microwave switches can be used in place of traditional microwave switches to reconfigure antennas and RF circuits. The switch, which consists of a silicon die placed over a gap in transmission line, is controlled by illumination via a fibre optic cable. Hence there is no requirement to design electrical biasing lines which may affect RF performance. This benefit is the main motivation behind further developing and understanding the photoconductive switch. The second motivation is the growing demand for reconfigurable antennas which necessitate certain switching requirements; one specific area of interest is in cognitive radio applications. However, in order to use such a switch in RF circuitry, the photoconductive nature of the switch must be understood. This is addressed in this thesis presenting and applying analytical equations which dictate the material properties in photoconductive silicon. These equations are then used to generate a 3D EM simulation model to investigate transmission loss in the photoconductive switch. The concept of signal planarity is investigated so as to give some insight into the best way to package the switch. In order to potentially reduce loss and facilitate a packaged device, the fabrication of the switch is investigated. Namely, the treatment of the silicon and the addition of contacts on the silicon are discussed as possible methods to improve switch performance. Lastly, linearity, power handing and switching times are presented for the photoconductive switch. This characterisation is important with regards to understanding which types of application the switch can be used in. In particular the single tone and two tone linearity of the switch is measured these values have not previously been reported for this type of photoconductive switch. The results are encouraging and support further development of the switch into a packaged product to be used in reconfigurable antennas and circuitry.
|
2 |
針對股市靜態與動態統計物理量之關聯性研究 / Relation between static and dynamic statistical quantities for a collection of stocks王帥文 Unknown Date (has links)
本論文在分析 SP500 指數其中交易最為頻繁的 345 家公司在 1996 年各月份的股票數據,相關係數與時間尺度間的關聯已經被證實出來, 而我們利用 K − L 展開來分解股價對數報酬的時間序列,特徵成份的時間部分基底對時間尺度有顯著的依賴特性。我們對每個特徵成份計算持續性時間的量(switch time)和參與率(participation ratio),並仔細分析它們與特徵值之間的關聯,做為特徵成份分類的參考,而在較小的時間尺度底下大部份的特徵成份的特徵值與持續性時間呈線性關係。這些訊息可以用來補充先前對股市對數報酬率所呈現粒子特性所做的分析。
|
3 |
勞工退休金新制下之最適轉換時點與轉換價值評析紀穎昱, CHI,YING-YU Unknown Date (has links)
勞退新制即將在 94年 7 月 1 日起正式實施,在新的退休金體系下,勞工可由舊制的確定給付制轉換到擁有資產配置與投資決策權利的確定提撥制。台灣的勞退新制可分為兩種退休金制度供勞工選擇-個人帳戶制及其他年金制。確定提撥制與確定給付制在本質上有諸多的差異性,分別具有不同的優缺點,在本文的假設下,轉換選擇權存在於個人帳戶制與其他年金制之間。另外,在期望達到勞工退休金財富極大化的目標下,勞工會選擇在適當的時點,由個人帳戶制轉換到其他年金制。
雖然本文是採定值模型來分析,但是提供一個直觀上充分的洞悉與表徵,來解釋勞退新制下之個人帳戶制及其他年金制之間,若存在一最適轉換時點,其在經濟意涵中所表示之抵換關係與經濟價值為何。本文建構一個退休金財富極大化之模型,結合數值模擬的方法來分析其要點。研究結果發現,最適轉換時點之衡量,是由兩種制度下的變動率,而非帳戶內金額之大小來決定;此外,年金精算現值計算經折現後的給付率和剩餘工作年數,對於勞動工作者的選擇也屬重要變數之一。另外,本文針對年輕的勞工,在不同投資報酬率環境下,計算出兩種制度間抵換的價值;最後,本文也探討了執行轉換選擇權對於不同年紀的勞動工作者影響的幅度。總而言之,本文希望提供勞動工作者在勞退新制下,一個退休金財富配置最適化的準則,及執行轉換選擇權時參考的方針。 / The newly Labor Pension Act will be carried out in 2005 soon. Under this new pension system, employees will be given the choices of converting their traditional defined benefit (DB) pension plan into an individual-account defined contribution (DC) pension plan with full control over assets allocation and investment decisions. Under DC pension plan in Taiwan, there are two types of pension plan- Individual Account System and Commercial Pension Plan System- for employees to choose. DC and DB pension plan are totally different in essences, so on the basis of our assumptions, switch options will exist among Individual Account System and Commercial Retirement Plan System. Thus, in order to maximum employees’ retired wealth, employees might choose the optimal time to convert Individual Account System into Commercial Pension Plan System.
Although our model is deterministic in nature, we believe that it provides an intuitive insight about switch options. We find not only the optimal switch time between Individual Account System and Commercial Retirement Plan System but also the “trade-off” economic values. This paper designs a model of maximizing retired wealth and makes numerical simulation to analyze optimal switch time. We find it is the “rate of change” of these two different pension systems affects the times for employees to exercise switch options. Besides, both the payment-rate scaled present value of the DB pension annuity and the retirement horizon are significant parameters in our analysis. Third, we also calculate the threshold investment returns between Individual Account System and Commercial Pension Plan System under various investment environments. Finally, we also contrast the effects of exercising switch options between younger and older employees. In short, we want to provide some principles for employees to make the optimal retired wealth allocation under Newly Labor Pension Act, then exercise switch options at the proper time.
|
Page generated in 0.0578 seconds